#!/bin/bash
#
# systemtap	Startup script for SystemTap scripts
#
# chkconfig: - 00 99
# config: /etc/systemtap/config
# config: /etc/systemtap/conf.d
### BEGIN INIT INFO
# Provides: SystemTap scripts startup
# Required-Start: $local_fs
# Required-Stop: $local_fs
# Short-Description: Start and stop systemtap scripts
# Default-Start: 2 3 4 5
# Default-Stop: 0 1 6
# Description: The systemtap service runs a configured list of scripts at system startup.
### END INIT INFO

# Source function library.
if [ -f /etc/rc.d/init.d/functions ]; then

  # This initscript is not compatible with the systemctl redirect on
  # newer platforms because it omits the command-line parameters for
  # the standard actions (e.g. start, stop, restart, etc...).
  SYSTEMCTL_SKIP_REDIRECT=1

  # Red Hat init functions
  . /etc/rc.d/init.d/functions

else
  # Default init functions
  success () {
    echo -n "OK"
  }
  failure () {
    echo -n "FAILED"
  }
fi

prog=systemtap

prefix=@prefix@
exec_prefix=@exec_prefix@
# Commands
STAP=@bindir@/stap
STAPRUN=@bindir@/staprun
UNAME=/bin/uname
LSMOD=/sbin/lsmod
DRACUT=`which dracut`

# Not actually used directly, but needed by
# stap dracut module for inclusion in initramfs
STAPIO=@libexecdir@/systemtap/stapio

# Path setup
SCRIPT_PATH=@sysconfdir@/systemtap/script.d
CONFIG_PATH=@sysconfdir@/systemtap/conf.d
CACHE_PATH=@localstatedir@/cache/systemtap
STAT_PATH=@localstatedir@/run/systemtap
TEMP_PATH=/tmp
LOG_FILE=@localstatedir@/log/systemtap.log

# NB: this path is also used in 99stap/module-setup.sh
DRACUT_SRC=@dracutstap@/params.conf

# FAIL unless all scripts succeeded to run
PASSALL=yes

# Always follows script dependencies
RECURSIVE=no

# Automatically recompile scripts if caches are old or do not exist.
AUTOCOMPILE=yes

# Start these scripts by default. If omitted, all scripts are started.
DEFAULT_START=

# Allow cache only scripts
ALLOW_CACHEONLY=no

# Log boot-time staprun stderr to /run/systemtap/$script.log
LOG_BOOT_ERR=no

# Optional settings
CONFIG=@sysconfdir@/systemtap/config
SCRIPTS=
KRELEASE=`uname -r`
OPT_RECURSIVE=
OPT_SCRIPTS=
OPTS=
OPT_ASSUMEYES=
INITRAMFS=
BACKUP_INITRAMFS=
EXPLICIT_INITRAMFS=

echo_usage () {
  echo $"Usage: $prog {start|stop|status|restart|compile|onboot|cleanup|condrestart|try-restart|reload|force-reload} [OPTIONS] [SCRIPTS]"
  echo $"Options:"
  echo $"	-b		: backup initramfs before overwriting"
  echo $"	-c configfile	: specify config file"
  echo $"	-o path.img	: specify initramfs output file"
  echo $"	-r kernelrelease: specify kernel release version"
  echo $"	-R 		: recursively dependency checking"
  echo $"	-y 		: answer yes for all questions"
  echo $"	script(s)	: specify systemtap scripts"
  echo $""
  echo $"See systemtap-service(8) for full documentation"
}

#-----------------------------------------------------------------
# Helper functions
#-----------------------------------------------------------------
log () { # message
  echo `LC_ALL=en date +"%b %e %T"`": $1" >> "$LOG_FILE"
}
clog () { # message [-n]
  echo $2 "$1"
  log "$1"
}
slog () { # message
  logger "$1" # if syslogd is running, this message will be sent to syslog.
  log "$1"
}
logex () { # command
  eval log \"Exec: $@\"
  "$@" >> "$LOG_FILE" 2>&1
  return $?
}
do_warning () { # message
  slog "Warning: $1"
  warning "$1"
}
do_failure () { # message
  slog "Error: $1"
  failure "$1"
}
do_success () { # message
  log "Pass: $1"
  success "$1"
}
# Normalize options
check_bool () { # value
  case $1 in
  n|N|no|No|NO|0)
  return 0;;
  y|Y|yes|Yes|YES|1)
  return 1;;
  *)
  return 2;;
  esac
}
ask_yesno () { # message
  local yn ret=2
  [ "$OPT_ASSUMEYES" ] && return 1
  while [ $ret -eq 2 ]; do
    echo -n "$1 [y/N]: "
    read yn
    [ -z "$yn" ] && return 0
    check_bool $yn
    ret=$?
  done
  return $ret
}

#------------------------------------------------------------------
# Parameter parsing and setup options
#------------------------------------------------------------------
parse_args () { # arguments
  while [ -n "$1" ]; do
    case "$1" in
      -c)
        CONFIG=$2
        shift 1
        ;;
      -r)
        KRELEASE=$2
        shift 1
        ;;
      -R)
        OPT_RECURSIVE=1
        ;;
      -y)
        OPT_ASSUMEYES=1
        ;;
      -o)
        INITRAMFS=$2
        shift 1
        ;;
      -b)
        BACKUP_INITRAMFS=1
        ;;
      --)
        ;;
      *)
        OPT_SCRIPTS=$OPT_SCRIPTS\ $1
        ;;
    esac
    shift 1
  done
}

CMD=$1
shift 1
OPTS=`getopt -s bash -u -o 'r:c:Ryo:b' -- $@`
if [ $? -ne 0 ]; then
  slog "Error: Argument parse error: $@"
  failure $"parse error"
  echo_usage
  exit 3
fi
parse_args $OPTS

# Set default output file if not given as an option
if [ ! "$INITRAMFS" ]; then
  INITRAMFS=/boot/initramfs-$KRELEASE.img
else
  # User explicitly specified an img file to output to
  EXPLICIT_INITRAMFS=1
fi

# Include configs
. "$CONFIG"

for f in "$CONFIG_PATH"/*.conf; do
  if [ -f "$f" ]; then
    . "$f"
  fi
done

check_bool $PASSALL
PASSALL=$?
check_bool $RECURSIVE
RECURSIVE=$?
if [ "$OPT_RECURSIVE" ]; then # -R option overrides RECURSIVE.
  RECURSIVE=1
fi
check_bool $AUTOCOMPILE
AUTOCOMPILE=$?
CACHE_PATH="$CACHE_PATH/$KRELEASE"

check_bool $ALLOW_CACHEONLY
ALLOW_CACHEONLY=$?

check_bool $LOG_BOOT_ERR
LOG_BOOT_ERR=$?

is_valid_script_name () {
  # Same rules as stap -m with the addition of starting
  # with a non-digit so that valid shell variables can be
  # formed from it (for the config file).
  if ! [[ $1 =~ ^[a-zA-Z_][a-zA-Z0-9_]*$ ]]; then
    log "$1 is not a valid script name (must match [a-zA-Z_][a-zA-Z0-9_]*)"
    return 1
  fi
}

__get_all_scripts () {
  local s
  if [ $ALLOW_CACHEONLY -eq 1 ]; then
    for s in "$CACHE_PATH"/*.ko; do
      if [ -f "$s" ]; then
        script=`basename "$s" .ko`
        is_valid_script_name $script
        [ $? -eq 0 ] && echo $script
      fi
    done
  fi
  for s in "$SCRIPT_PATH"/*.stp; do
    if [ -f "$s" ]; then
      script=`basename "$s" .stp`
      is_valid_script_name $script
      [ $? -eq 0 ] && echo $script
    fi
  done
}

get_all_scripts() {
  __get_all_scripts | sort | uniq
}

if [ -z "$OPT_SCRIPTS" ]; then
  SCRIPTS=`get_all_scripts | xargs`
  RECURSIVE=1
else
  SCRIPTS="$OPT_SCRIPTS"
fi


# Create user-defined $STAT_PATH if it does not exist
if [ ! -d "$STAT_PATH" ]; then
  logex mkdir -p "$STAT_PATH"
  if [ $? -ne 0 ]; then
    do_failure $"Failed to make stat directory ($STAT_PATH)"
    exit 1
  fi
fi

# Create pidfiles for running boot-time scripts
for srv in $( grep -rl 'running' /proc/systemtap/*/srvstat 2>/dev/null | awk -F\/ '{print $4}' )
do
  if [ ! -f "$STAT_PATH/$srv" ]; then
    echo "0" > "$STAT_PATH/$srv"
  fi
done

#------------------------------------------------------------------
# Main routine
#------------------------------------------------------------------
NR_FAILS=0
might_fail () { # message exitcode
  if [ $PASSALL -eq 1 ]; then
     do_failure "$1"
     echo
     [ -z "$2" ] && exit 1
     exit $2
  else
     log "Warning: "$1
     NR_FAILS=$((NR_FAILS+1))
     return 0
  fi
}
might_success () { # message
  if [ $NR_FAILS -ne 0 ]; then
    log "Warning: $NR_FAILS failure occurred."
    do_warning "$1"
  else
    do_success "$1"
  fi
  return 0
}

get_all_runnings () {
  local f
  for f in "$STAT_PATH"/*; do
    if [ -f "$f" ]; then
      basename "$f"
    fi
  done
}

get_daemon_pid () { # script
  cat "$STAT_PATH/$1"
}

# Check whether a script is running.  Returns:
# 0: running
# 4: running, but no pidfile
# 3: not running
# 1: not running, but pidfile remains
check_running () { # script
  local m f
  f="$STAT_PATH/$1"
  m=`$LSMOD | grep "^$1 "`
  if [ -n "$m" ]; then
    [ -f "$f" ] && return 0 # running
    return 4 # another script is running
  else
    [ -f "$f" ] && return 1 # dead, but pidfile remains
    return 3 # dead
  fi
}

# check whether a script cache need to be updated.
check_cache () { # script opts
  local s tmp tmp2
  s=$1; shift 1
  [ ! -f "$CACHE_PATH/$s.ko" -o ! -f "$CACHE_PATH/$s.opts" ] && return 1
  if [ $ALLOW_CACHEONLY -ne 1 -o -f "$SCRIPT_PATH/$s.stp" ]; then
    [ "$SCRIPT_PATH/$s.stp" -nt "$CACHE_PATH/$s.ko" ] && return 2
  fi
  tmp=`head -n 1 "$CACHE_PATH/$s.opts"`
  tmp2=`$UNAME -a`
  [ "$tmp" != "$tmp2" ] && return 3
  tmp=`tail -n 1 "$CACHE_PATH/$s.opts"`
  tmp2="$*"
  [ "$tmp" != "$tmp2" ] && return 4
  return 0
}

stap_getopt () { # opts
  local ret
  # TODO: support quoted options
  getopt -s bash -u \
         -l 'vp:,save-uprobes' \
         -o 'hVvtp:I:e:o:R:r:m:kgPc:x:D:bs:uqwl:d:L:FS:' -- $@
  ret=$?
  [ $ret -ne 0 ] && slog "Failed to parse parameters. ($@)"
  return $ret
}

get_compile_opts () { # opts
  local opts o skip
  opts=`stap_getopt $*`
  [ $? -ne 0 ] && return 1
  skip=0
  for o in $opts; do
    if [ $skip -ne 0 ]; then skip=0; continue; fi
    case $o in
    -p|-m|-r|-c|-x|-e|-s|-o|-S)
       skip=1 ;;
    -h|-V|-k|-F)
      ;;
    *)
      echo -n $o" " ;;
    esac
  done
}

# Returns 0 if something went wrong
# Returns 1 if in -L mode
# Returns 2 if in -D (daemon) mode
get_run_opts () { # normalized_opts
  local opts o show mode
  opts=`stap_getopt $*`
  [ $? -ne 0 ] && return 0
  mode='-L'
  show=0
  for o in $opts; do
    case $o in
    --save-uprobes)
      # Use cached uprobes module, if available
      if [ -f "$CACHE_PATH/uprobes/uprobes.ko" ]; then
        echo -n "-u$CACHE_PATH/uprobes/uprobes.ko "
      fi
      ;;
    -c|-x|-s|-o|-S)
      [ $o == '-s' ] && o='-b'
      [ $o == '-o' ] && mode='-D'
      echo -n $o" "
      show=1
      ;;
    *)
      if [ $show -ne 0 ]; then
        echo -n $o" "
        show=0
      fi
      ;;
    esac
  done
  echo -n $mode
  [ "$mode" == "-L" ] && return 1
  [ "$mode" == "-D" ] && return 2
  return 0
}

prepare_cache_dir () {
  if [ ! -d "$CACHE_PATH" ]; then
    logex mkdir -p "$CACHE_PATH"
    [ $? -ne 0 ] && return 1
  fi
  return 0
}

prepare_stat_dir () {
  if [ ! -d "$STAT_PATH" ]; then
    logex mkdir -p "$STAT_PATH"
    [ $? -ne 0 ] && return 1
  fi
  return 0
}

compile_script () { # script checkcache
  local opts f tmpdir ret
  eval f="$SCRIPT_PATH/$1.stp"
  if [ ! -f "$f" ]; then
    if [ $ALLOW_CACHEONLY -eq 1 ]; then
      clog "Warning: no script file($f). Use compiled cache."
      return 0
    else
      clog "Error: no script file($f)."
      return 1
    fi
  fi

  eval opts=\$$1_OPT
  opts=`get_compile_opts $opts`
  [ $? -ne 0 ] && return 2

  if [ "$2" = "check" ]; then
    check_cache $1 $opts
    [ $? -eq 0 ] && return 0 # already compiled
    if [ $AUTOCOMPILE -eq 0 ]; then
      slog "No valid cache for $1"
      return 1
    fi
  fi

  clog " Compiling $1 ... " -n
  tmpdir=`mktemp -d -p "$TEMP_PATH" cache.XXXXXXXX`
  if [ $? -ne 0 ]; then
    clog "Failed to create temporary directory."
    return 1
  fi
  pushd "$tmpdir" &> /dev/null
  logex $STAP -E "probe procfs(\"srvstat\").read {\$value = \"running\n\"}" \
    -m "$1" -p4 -r $KRELEASE --save-uprobes $opts "$f"
  ret=$?
  if [ $ret -eq 0 ]; then
    if [ -f "uprobes/uprobes.ko" ]; then
      logex touch "$CACHE_PATH/$1.uprobes"
      logex mkdir -p "$CACHE_PATH/uprobes"
      logex mv "uprobes/uprobes.ko" "$CACHE_PATH/uprobes/"
      ret=$?
    elif [ -f "$CACHE_PATH/$1.uprobes" ]; then
      rm "$CACHE_PATH/$1.uprobes"
    fi
  fi
  if [ $ret -eq 0 ]; then
    $UNAME -a > "$1.opts"
    echo $opts >> "$1.opts"
    logex mv "$1.ko" "$1.opts" "$CACHE_PATH/"
    ret=$?
  else
    slog "Failed to compile script($1)."
  fi
  popd &> /dev/null
  rm -rf $tmpdir
  [ $ret -eq 0 ] && clog "done" || clog "error"
  return $ret
}

# dependency resolver
__SORTED=
__follow_dependency () { # script requesters
  local opts r reqs s ret
  s=$1
  shift 1
  r=`echo \ $*\  | grep \ $s\ `
  if [ -n "$r" ]; then
    might_fail $"Dependency loop detected on $s"
    return 1
  fi
  r=`echo \ $__SORTED\  | grep \ $s\ `
  [ -n "$r" ] && return 0 # already listed up
  eval reqs=\$${s}_REQ
  if [ -n "$reqs" ]; then
    for r in $reqs; do
      __follow_dependency $r $s $*
      ret=$?
      if [ $ret -ne 0 ]; then
        return $ret # if one of requires failed, we can't run this script.
      fi
    done
  fi
  echo -n "$s "
  return 0
}

sort_dependency () { # scripts
  local s r=0
  __SORTED=
  for s in $*; do
    __SORTED="$__SORTED "`__follow_dependency $s`
    [ $? -ne 0 ] && return 1
  done
  echo $__SORTED
  return 0
}

start_script () { # script
  local tmpdir s=$1 ret count=0 mode
  check_running $s
  ret=$?
  [ $ret -eq 0 ] && return 0 # already running
  if [ $ret -eq 4 ]; then
    clog "$s is dead, but another script is running."
    return 4
  fi

  compile_script $s check
  ret=$?
  [ $ret -ne 0 ] && return $ret

  eval opts=\$${s}_OPT
  opts=`get_run_opts $opts`
  mode=$?
  [ $mode -eq 0 ] && return 2

  if [ -f "$CACHE_PATH/$s.uprobes" ]; then
    opts="$opts -u$CACHE_PATH/uprobes/uprobes.ko"
  fi

  clog " Starting $1 ... " -n
  tmpdir=`mktemp -d -p "$TEMP_PATH" cache.XXXXXXXX`  # bz7097
  if [ $? -ne 0 ]; then
    clog "Failed to create temporary directory."
    return 1
  fi
  pushd "$tmpdir" &> /dev/null
  eval log \"Exec: $STAPRUN $opts $CACHE_PATH/$s.ko\"
  $STAPRUN $opts "$CACHE_PATH/$s.ko" 2>> "$LOG_FILE" > ./pid
  ret=$?

  # When the staprun '-D' option (run in background as a daemon) is
  # used, staprun detaches from the terminal and *then* prints the new
  # pid.  So, it is possible to check the ./pid file before it has
  # been written.  To avoid this, wait a bit (if necessary).
  if [ $mode -eq 2 ]; then
    while [ $count -lt 10 ]; do
      # when the file exists and has a size > 0, quit
      [ -s ./pid ] && break
      sleep 1
      count=`expr $count + 1`
    done
  fi

  [ x`cat ./pid` = x ] && echo 0 > ./pid
  if [ $ret -eq 0 ]; then
      logex cp -f ./pid "$STAT_PATH/$s"
  fi
  popd &> /dev/null
  rm -rf "$tmpdir"
  [ $ret -eq 0 ] && clog "done" || clog "error"
  return $ret
}

start () {
  local start_scripts s ret
  clog $"Starting $prog: " -n

  start_scripts=$SCRIPTS
  if [ -n "$DEFAULT_START" -a -z "$OPT_SCRIPTS" ]; then

    # Only pick the names in DEFAULT_START with valid names
    start_scripts=
    for s in $DEFAULT_START; do
      is_valid_script_name $s
      [ $? -eq 0 ] && start_scripts="$start_scripts $s"
    done
  fi

  if [ -z "$start_scripts" ]; then
    do_warning $"No scripts exist."
    return 0 # only a warning
  fi

  prepare_stat_dir
  if [ $? -ne 0 ]; then
    do_failure $"Failed to make stat directory ($STAT_PATH)"
    return 1
  fi
  prepare_cache_dir
  if [ $? -ne 0 ]; then
    do_failure $"Failed to make cache directory ($CACHE_PATH)"
    return 1
  fi

  if [ $RECURSIVE -eq 1 ]; then
    start_scripts=`sort_dependency $start_scripts`
    if [ $? -ne 0 ]; then
      do_failure $"Failed to sort dependency"
      return 6 # program is not configured
    fi
  fi
  for s in $start_scripts; do
    start_script "$s"
    ret=$?
    if [ $ret -ne 0 ]; then
      might_fail $"Failed to run \"$s\". ($ret)"
    fi
  done
  might_success $"$prog startup"
  return 0
}

stop_script () { # script
  local p f count=0

  f="$STAT_PATH/$1"
  while [ $count -lt 10 ]; do
    check_running "$1"
    ret=$?

    # If the module is isn't running, we're done.
    [ $ret -eq 3 ] && return 0
    # If the module isn't loaded but the pidfile remains, remove the
    # old pidfile and return.
    if [ $ret -eq 1 ]; then
      rm -f $f
      return 0
    fi

    # Try to either kill the stap process that is handling the
    # module (which will cause the module to be unloaded) or use
    # staprun to delete the module.  (Note that staprun will only
    # delete systemtap modules.)
    p=`get_daemon_pid $1`
    if [ $p -ne 0 ]; then
      logex kill -TERM $p
    else
      logex $STAPRUN -d "$1"
    fi
    [ $? -ne 0 ] && return 1

    # At this point the module should be unloaded, but the pidfile
    # will still be present.  If so, remove the pidfile and return.
    # Otherwise, wait a bit for the module to unload and try again.
    check_running "$1"
    ret=$?
    [ $ret -eq 3 ] && return 0
    if [ $ret -eq 1 ]; then
      rm -f $f
      return 0
    fi
    sleep 1
    count=`expr $count + 1`
  done

  do_failure $"Failed to stop script \"$1\" after $count attempts"
  return 1
}

stop () {
  local stop_scripts s sl=
  clog $"Stopping $prog: " -n
  stop_scripts=$SCRIPTS
  [ -z "$OPT_SCRIPTS" ] && stop_scripts=`get_all_runnings`
  if [ $RECURSIVE -eq 1 ]; then
    stop_scripts=`sort_dependency $stop_scripts`
    if [ $? -ne 0 ]; then
      do_failure $"Failed to sort dependency"
      return 6 # program is not configured
    fi
  fi
  for s in $stop_scripts; do
    sl="$s $sl"
  done
  for s in $sl; do
    stop_script $s
    [ $? -ne 0 ] && might_fail $"Failed to stop \"$s\". "
  done
  might_success $"$prog stopping "
  return 0
}

rh_status () {
  local status_scripts s pid ret r
  status_scripts=$SCRIPTS
  [ -z "$status_scripts" ] && status_scripts=`get_all_runnings`
  ret=3
  if [ -z "$status_scripts" ] ; then
    echo "No systemtap scripts are present"
    return $ret
  fi
  for s in $status_scripts; do
    check_running $s
    r=$?
    [ $ret -ne 0 ] && ret=$r
    case $r in
    0)
      pid=`get_daemon_pid $s`
      [ $pid -ne 0 ] && pid="($pid)" || pid=
      echo $"$s$pid is running..." ;;
    1|3) echo $"$s is stopped" ;;
    4) echo $"$s is dead, but another script is running.";;
    esac
  done
  return $ret
}

rh_status_q () {
  rh_status >/dev/null 2>&1
  return $?
}

compile () {
  local s ss
  clog $"Compiling systemtap scripts: " -n
  prepare_cache_dir
  if [ $? -ne 0 ]; then
    do_failure $"Failed to make cache directory ($CACHE_PATH)"
    return 1
  fi
  for s in $SCRIPTS; do
    ss="$ss "`ls "$CACHE_PATH/$s.ko" "$CACHE_PATH/$s.opts" "$CACHE_PATH/$s.uprobes" 2> /dev/null`
  done
  ss=`echo -n $ss`
  if [ "$ss" ]; then
    clog "Updating caches: $ss"
    ask_yesno "Do you really want to update above caches"
    [ $? -eq 0 ] && return 0
  fi
  for s in $SCRIPTS; do
    compile_script $s nocheck
    [ $? -ne 0 ] && might_fail $"$s compilation failed "
  done
  might_success $"$prog compiled "
  return 0
}

# Writes info to $DRACUT_SRC, which the stap dracut module will source.
# Includes all needed info such as location of stap/staprun, which
# scripts to insert, and their options.
update_dracut() { # scripts
  local s opts

  if [ -f "$DRACUT_SRC" ]; then
    rm -f "$DRACUT_SRC"
  fi

  echo      "STAPRUN=\"$STAPRUN\""      >> "$DRACUT_SRC"
  echo       "STAPIO=\"$STAPIO\""       >> "$DRACUT_SRC"
  echo   "CACHE_PATH=\"$CACHE_PATH\""   >> "$DRACUT_SRC"
  echo    "STAT_PATH=\"$STAT_PATH\""    >> "$DRACUT_SRC"
  echo     "KRELEASE=\"$KRELEASE\""     >> "$DRACUT_SRC"
  echo "LOG_BOOT_ERR=\"$LOG_BOOT_ERR\"" >> "$DRACUT_SRC"

  echo -n "ONBOOT_SCRIPTS=\"" >> "$DRACUT_SRC"
  for s in $*; do
    echo -n "$s " >> "$DRACUT_SRC"
  done
  echo "\"" >> "$DRACUT_SRC"

  for s in $*; do
    eval opts=\$${s}_OPT
    opts=`get_run_opts $opts`
    [ $? -eq 0 ] && return 1
    echo -n "$s" >> "$DRACUT_SRC"
    echo "_OPT=\"$opts\"" >> "$DRACUT_SRC"
  done
}

backup_initramfs() {
  # does target file exist?
  if [ -f "$INITRAMFS" ]; then
    clog
    # don't overwrite an existing backup
    if [ ! -f "$INITRAMFS.bak" ]; then
      mv "$INITRAMFS" "$INITRAMFS.bak"
      clog "  Renamed $INITRAMFS"
      clog "       to $INITRAMFS.bak ... " -n
      RESTORE_INITRAMFS_ON_FAIL=1
    else
      clog "  Backup already exists: $INITRAMFS.bak ... " -n
    fi
  fi
}

onboot () {
  local s ret ss
  if [ ! -f "$DRACUT" ]; then
    do_failure "$DRACUT not found"
    return 1
  fi
  if [ ! -d "$(dirname $DRACUT_SRC)" ]; then
    clog "Could not find dracut module" -n
    do_failure "SystemTap dracut module $(dirname $DRACUT_SRC) not found"
    return 1
  fi
  prepare_cache_dir
  if [ $? -ne 0 ]; then
    do_failure "Failed to make cache directory ($CACHE_PATH)"
    return 1
  fi
  # NB: we use OPT_SCRIPTS, not SCRIPTS because we want
  # no scripts passed to mean building a virgin initramfs
  for s in $OPT_SCRIPTS; do
    compile_script $s check
    ret=$?
    [ $ret -ne 0 ] && might_fail "Could not compile $s ($ret)"
    eval opts=\$${s}_OPT
    opts=`get_run_opts $opts`
    mode=$?
    clog " Checking options $s ... " -n
    [ $mode -eq 0 ] && might_fail "Bad runtime options for script $s"
    [ $mode -eq 2 ] && might_fail "Unsupported option -o in script $s"
    if [ $ret -eq 0 ] && [ $mode -eq 1 ]; then
      ss="$ss$s "
      clog "done"
    fi
  done
  # User specified script(s) but they were all skipped
  if [ -n "$OPT_SCRIPTS" ] && [ -z "$ss" ]; then
    do_failure "No scripts left to operate on"
    return 1
  fi
  if [ ! "$ss" ]; then
    clog " Creating initramfs without scripts ... " -n
  else
    clog " Creating initramfs with $ss... " -n
  fi
  update_dracut $ss
  if [ $? -ne 0 ]; then
    do_failure "Call to update_dracut failed. Bad opts?"
    return 1
  fi
  if [ "$BACKUP_INITRAMFS" ]; then
    backup_initramfs
  fi
  dir=`dirname $INITRAMFS` && TMPINITRAMFS=`mktemp --tmpdir=$dir`
  if [ $? -ne 0 ]; then
    do_failure "Failed to make temporary file in $dir"
    return 1
  fi
  if [ ! "$ss" ]; then
    # Create the initramfs image without stap module enabled.
    out=$($DRACUT --force $TMPINITRAMFS $KRELEASE 2>&1)
  else
    # Create the initramfs image with stap module enabled.
    out=$($DRACUT --add stap --force $TMPINITRAMFS $KRELEASE 2>&1)
  fi
  # dracut will report success even if some modules (e.g. stap) failed
  # to install some files, so we need to be a bit more involved in
  # checking for errors
  if [ $? -ne 0 ] || \
      [[ "$out" == *ERROR* ]] || \
      ( [ -n "$ss" ] && ! lsinitrd "$TMPINITRAMFS" | grep -q ${STAPRUN:1} ); then
    do_failure "The initramfs creation is unsuccessful"
    if [ -f /var/log/dracut.log ]; then
      do_failure "See /var/log/dracut.log for more info"
    else
      do_failure "See dracut log for more info"
    fi
    clog
    if [ -f "$TMPINITRAMFS" ]; then
      rm "$TMPINITRAMFS"
    fi
    # Put back the initramfs if we moved it (if we didn't move it, then
    # whatever initramfs they used to boot in is still there)
    if [ "$RESTORE_INITRAMFS_ON_FAIL" ]; then
      mv "$INITRAMFS.bak" "$INITRAMFS"
      clog "  Renamed $INITRAMFS.bak"
      clog "       to $INITRAMFS"
    fi
    return 1
  fi
  mv "$TMPINITRAMFS" "$INITRAMFS"
  # The initramfs is in place. If the user explicitly specified an
  # output file using -o, then we should skip updating the bootloader
  # (the output file may not even be in /boot/).
  if [ "$EXPLICIT_INITRAMFS" ]; then
    might_success "initramfs created"
    clog
    clog "NB: bootloader was not updated" -n
    return 0
  fi
  clog "done"
  return 0
}

# Cleanup caches
cleanup () {
  local s ss ret
  clog $"Cleaning up systemtap scripts: " -n
  if [ ! -d "$CACHE_PATH" ]; then
    do_success "no cache"
    return 0
  fi

  for s in $SCRIPTS; do
    ss="$ss "`ls "$CACHE_PATH/$s.ko" "$CACHE_PATH/$s.opts" "$CACHE_PATH/$s.uprobes" 2> /dev/null`
  done
  ss=`echo -n $ss`
  if [ "$ss" ]; then
    echo "Removing caches: $ss"
    ask_yesno "Do you really want to remove above caches"
    [ $? -eq 0 ] && return 0
    for s in $SCRIPTS; do
      logex rm -f "$CACHE_PATH/$s.ko" "$CACHE_PATH/$s.opts" "$CACHE_PATH/$s.uprobes"
      [ $? -ne 0 ] && might_fail $"failed to clean cache $s.ko"
    done
  fi
  # If none of the remaining scripts require uprobes.ko, then delete it as well
  if [ -d "$CACHE_PATH/uprobes" ]; then
    if ! ls "$CACHE_PATH/*.uprobes" &>/dev/null; then
      logex rm -rf "$CACHE_PATH/uprobes"
    fi
  fi
  might_success "done"
  return 0
}

# Restart scripts
function restart () {
  stop
  echo					# we need a newline
  start
  return $?
}

RETVAL=0

case $CMD in
  start)
  start
  RETVAL=$?
  ;;
  stop)
  stop
  RETVAL=$?
  ;;
  restart|force-reload|reload)
  restart
  RETVAL=$?
  ;;
  status)
  rh_status
  exit $?
  ;;
  compile)
  compile
  RETVAL=$?
  ;;
  onboot)
  onboot
  RETVAL=$?
  ;;
  cleanup)
  cleanup
  RETVAL=$?
  ;;
  condrestart|try-restart)
  rh_status_q || exit 0
  restart
  RETVAL=$?
  ;;
  *)
  echo_usage
  RETVAL=3
  ;;
esac

echo
exit $RETVAL

# vim: sw=2 ts=8
